CN105825026A - Coke oven straight-section flue arch vaulting construction method based on BIM (building information modeling) technology - Google Patents

Abstract

The invention discloses a coke oven straight-section flue arch vaulting construction method based on a BIM (building information modeling) technology. The construction method comprises the following steps of 1, building a parameterized three-dimensional model of a coke oven straight-section flue arch vaulting according to a design drawing; 2, numbering components in the three-dimensional model, creating and outputting a component list, and performing prefabricated processing on the components; 3, conveying the processed components to a construction site, and rechecking the dimension of each component according to the three-dimensional model; 4, assembling each component on the basis of the three-dimensional model, and constructing the coke oven straight-section flue arch vaulting. The method has the beneficial effects that the BIM technology is adopted for three-dimensional modeling, automatic integration and data extraction; the modularized and standardized prefabricated processing of each component of the vaulting is realized; the design, the production and the construction of the coke oven straight-section flue arch vaulting are managed in a unified way; the construction efficiency is improved; the engineering cost is reduced.

Description

Coke oven straight section flue arch stuffing construction method based on BIM technology

Technical field

The present invention relates to industrial furnace construction field, be specifically related to a kind of coke oven straight section flue arch stuffing construction method based on BIM technology.

Background technology

At present, coke oven flue form of construction work is first to build refractory lining (refractory brick) on flue concrete floor by laying bricks or stones at flue arch springing, installs flue arch stuffing；Then in the installation site of flue bent pipe, carrying out unwrapping wire location, reserved flue bent pipe preformed hole, worker stands stands in and completes building by laying bricks or stones of refractory lining on coke oven flue arch tire and erect pouring of wall with flue；Then the installation carrying out coke oven flue elbow is fixed, and after coke oven flue elbow is fixed on the installing hole that flue is preset, pours flue top board the most again, is poured together by coke oven flue elbow and be fixed in flue top board.

Coke oven flue arch tire is the temporary facility building arc by laying bricks or stones, is mainly made up of wooden bow member sheet, lath.Coke oven flue arch tire subjects the weight of building materials, masonry, operator and instrument, is prohibited from dismounting at flue concrete roof not up to final strength.Owing to the amount of wood needed for building coke oven flue arch tire is relatively big, the plan of material is extracted and is used artificial calculating, comparatively laborious；Carpenter master worker is when bow member sheet upper berth lathing, the most first with long lath, cutting the position of coke oven flue elbow preformed hole, the batten ends after cutting is low due to defects in timber (knaur, crackle, distortion) utilization rate again, and the consumption of overall wood plank is big.

Development along with building trade, BIM technology is utilized to carry out factorial praluction, modular prefabricated and install and ensure that the seriality of production, produce the standardization of parts, make dynamo-electric installation change to the industrialization mode of efficient, energy-saving and environmental protection, Parallel Design, parallel construction.

Summary of the invention

It is an object of the invention to, for the deficiencies in the prior art, it is provided that a kind of modularized production, the coke oven straight section flue arch stuffing construction method based on BIM technology of saving material.

The technical solution used in the present invention is: a kind of coke oven straight section flue arch stuffing construction method based on BIM technology, this construction method comprises the steps:

Step one, according to design drawing, set up the parametrization threedimensional model of coke oven straight section flue arch stuffing；

Step 2, the component in threedimensional model is numbered, creates and output link inventory, component is carried out prefabricated processing；

Step 3, the component of completion of processing is transported to job site, checks the size of each component according to threedimensional model；

Step 4, based on threedimensional model, each component is carried out assembly, build coke oven straight section flue arch stuffing.

By such scheme, described coke oven straight section flue arch stuffing includes organizing the arch tyre shoe of uniform intervals arrangement more, mats formation long tire bar in the arch limit along arch tyre shoe.

By such scheme, described arch tyre shoe includes wind up radian plate and lower rotating plate, and two ends with lower rotating plate respectively, the two ends of the radian plate that winds up are connected, and form the bent frame closed；Having gripper shoe from the center of lower rotating plate to the radian plate symmetric radiation that winds up, gripper shoe is connected with the radian plate that winds up by connecting plate.

By such scheme, described step one, specifically include procedure below:

1) set up wind up radian plate, lower rotating plate, gripper shoe and connecting plate, be combined into arch tyre shoe, then mirror image obtains two arch tyre shoe models, including left tyre shoe model and right tyre shoe model；

2) determine the spacing of the radian plate central plane that winds up of two tyre shoe models, constitute tyre shoe group model；

3) lay long tire bar, create tire bar model, tire bar model is integrated with tyre shoe group model, after integration, is converted into customizable component；

4) setting model creates point, including starting point and ending point, is alignd with starting point by the radian plate central plane that winds up of left tyre shoe, and distance between the two is 0；Winding up of right tyre shoe is set relative distance parameter, i.e. tyre shoe spacing parameter between radian plate central plane and starting point；

5) respectively left tyre shoe and right tyre shoe are used array of objects assembly, create remaining left tyre shoe and right tyre shoe, the number parameter of array uses formula Auto-matching: left tyre shoe quantity=(terminating point displacement starting point displacement)/(2 × tyre shoe spacing parameter), right tyre shoe quantity is identical with left tyre shoe quantity；

6) the two ends end face of tire bar model is bound with starting point and ending point respectively, create the relative distance parameter that long tire bar stretches out；

7) the tyre shoe group model after optimizing and combining and tire bar model, complete the foundation of the parametrization threedimensional model of coke oven flue straight section arch tire.

By such scheme, described flue arch stuffing offers flue bent pipe preformed hole, between adjacent two flue bent pipe preformed holes, lay multiple short tire bar.

By such scheme, in step 4, when building described flue arch stuffing, first the multiple short tire bar between flue bent pipe preformed hole being carried out setting-out, according to setting-out size, make arc model, the radian of arc model is identical with the radian of the radian plate that winds up；Then, being assembled in respectively on two arc models at the two ends of multiple short tire bars, the modular short tire bar of fixing formation is overall；It is arranged on overall for short tire bar on arch tyre shoe after dismounting from arc model again, between adjacent two short tire bar entirety, forms a flue bent pipe preformed hole.

By such scheme, when installing short tyre surface, short tire bar the shortest in short tyre surface aligns with the structural joint of radian plate side of winding up in arch tyre shoe, and all short tire bar in short tyre surface is all parallel with the long tire bar in arch tyre surface.

By such scheme, described arc model offering draw-in groove, draw-in groove matches with short tire bar.

The invention have the benefit that 1, the present invention uses BIM technology Parametric three-dimensional modeling, it is automatically integrating and extracts data, coke oven straight section flue arch stuffing is optimized design, ensure that the accuracy of design, also realize modularity and the prefabricated processing of standardization of the described each component of arch tire simultaneously, quick obtaining timber processing detail form and express statistic timber raw sheet material (woollen) usage amount, by the design of coke oven straight section flue arch stuffing, produce and construct three's unified management, reduce difficulty of construction, improve efficiency of construction, reduce construction costs.2, to be fixedly connected to form short tire bar overall for the short tire bar between coke oven flue elbow preformed hole, modularity is processed, and makes full use of batten ends (being used for making short tire bar), it is to avoid timber waste, cost-effective.

Accompanying drawing explanation

Fig. 1 is the structural representation of coke oven flue straight section arch tire in the present invention.

Fig. 2 is the structural representation of arch tyre shoe in the present invention.

Fig. 3 is arc model and the connection diagram of short tire bar in the present invention.

In figure: 1, wind up radian plate；2, lower rotating plate；3, gripper shoe；4, connecting plate；5, arch tyre shoe；6, arc model；7, long tire bar；8, short tire bar；9, flue bent pipe preformed hole；10, draw-in groove.

Detailed description of the invention

In order to be more fully understood that the present invention, with specific embodiment, the present invention is further described below in conjunction with the accompanying drawings.

The structure of coke oven flue straight section arch tire to be onstructed in the present embodiment is as shown in Figure 1.Coke oven flue straight section arch tire includes the arch tyre shoe 5 organizing uniform intervals arrangement more, and the spacing of adjacent two arch tyre shoes 5 is 650mm；Mating formation in arch limit along arch tyre shoe 5 has many root lengths tire bar 7, and many root lengths tire bar 7 forms arch tyre surface.Long tire bar 7 two ends stretch out first arch tyre shoe 5 and last arch tyre shoe 5 respectively, and its outreach is 200mm.On arch tyre surface, uniform intervals offers the flue bent pipe preformed hole 9 of several a diameter of 622mm, on the flue bent pipe preformed hole 9 arch tyre surface between two arch tyre shoes 5, being the formation of short tyre surface between adjacent two flue bent pipe preformed holes 9, short tyre surface is made up of the short tire bar 8 of many different sizes.Arch tyre shoe 5 includes the radian plate 1 that winds up, and two ends with lower rotating plate 2 respectively, the two ends of the radian plate 1 that winds up are connected, and form the bent frame closed；Gripper shoe 3 (being three pieces of gripper shoes 3 in the present embodiment), gripper shoe 3 is had to be connected with the radian plate 1 that winds up by connecting plate 4 by the center of lower rotating plate 2 to radian plate 1 symmetric radiation that winds up.Arch tyre surface is formed along certain radian uniform intervals is arranged in parallel by some long tire bars 7；Short tyre surface is formed by certain spaced and parallel arrangement of radian by the short tire bar 8 of some different sizes, and adjacent two short tyre surfaces form a flue bent pipe preformed hole 9, and multiple short tyre surfaces are sequentially connected with, and constitute multiple flue bent pipe preformed hole 9.Arch tyre shoe 5, long tire bar 7 and short tire bar 8 are made by timber.As a example by this coke oven flue straight section arch tire, construction method of the present invention is illustrated below.

A kind of coke oven straight section flue arch stuffing construction method based on BIM technology, this construction method comprises the steps:

Step one, according to design drawing, set up the parametrization threedimensional model of coke oven straight section flue arch stuffing:

1) set up wind up radian plate 1, lower rotating plate 2, gripper shoe 3 and connecting plate 4, be combined into arch tyre shoe 5, then mirror image obtains two arch tyre shoe 5 models, including left tyre shoe model and right tyre shoe model.

2) set the spacing of radian plate 1 central plane that winds up of two arch tyre shoe models, constitute tyre shoe group model.

3) lay long tire bar 7, create tire bar model, tire bar model is integrated with tyre shoe group model, after integration, is converted into customizable component.

4) setting model creates point, including starting point and ending point, is alignd with starting point by radian plate 1 central plane that winds up of left tyre shoe, and distance between the two is 0；Setting the relative distance parameter winded up between radian plate 1 central plane and starting point of right tyre shoe, i.e. tyre shoe spacing parameter, is entered as 650mm.

5) respectively left tyre shoe and right tyre shoe are used array of objects assembly, create remaining left tyre shoe and right tyre shoe, the number parameter of array uses formula Auto-matching: left tyre shoe quantity=(terminating point displacement starting point displacement)/(2 × tyre shoe spacing parameter), right tyre shoe quantity is identical with left tyre shoe quantity.

6) the two ends end face of tire bar model is bound with starting point and ending point respectively, create the relative distance parameter that long tire bar stretches out, assignment 200mm, namely long tire bar 7 two ends stretch out first arch tyre shoe 5 and last arch tyre shoe 5 respectively, its outreach is 200mm (front end surface distance starting point 200mm of long tire bar 7, rear end end face vertex distance terminating point 200mm after stretching out).

7) the tyre shoe group model after optimizing and combining and tire bar model, enter parametrization INP editing machine, adds word, parameter dialog box, picture, and by the parameter association of parameter dialog box Yu customizable component, saves as IPN file；Using notepad form to open again, the IPN file replicating internal data of the same name with tekla file is replaced, and completes coke oven flue straight section and encircles the foundation of tire parametrization threedimensional model.

Step 2, the component in threedimensional model is numbered, create and export each component inventory, each component is carried out prefabricated processing: the arch tyre shoe 5 in threedimensional model, long tire bar 7 and short tire bar 8 are converted into customizable component, such as wind up radian plate 1, lower rotating plate 2, gripper shoe 3, connecting plate 4, long tire bar 7 to each component, and the short tire bar 8 of plurality of specifications, inventory, prefabricated processing is exported after numbering.

Step 3, the component of completion of processing is transported to job site, checks the size of each component according to threedimensional model.

Step 4, based on threedimensional model, each component is carried out assembly, build coke oven straight section flue arch stuffing: the most assembled arch tyre shoe 5, interval is installed long tire bar 7 after arranging each group of arch tyre shoe 5, finally installed short tire bar 8.

Preferably, when building described flue arch stuffing, first the multiple short tire bar 8 between flue bent pipe preformed hole 9 is carried out setting-out, according to setting-out size, make arc model 6, the radian of arc model 6 is identical with the radian of the radian plate 1 that winds up, and the edge, arc limit of arc model 6 offers draw-in groove 12, and draw-in groove 12 matches with short tire bar 8；Then, the two ends of multiple short tire bars 8 are assembled on two arc models 6 respectively, and utilize strap and nail to connect fixing for short tire bar 8, form modular short tire bar overall；Dismantle overall for short tire bar from arc model 6 again, be arranged on arch tyre shoe 5.

Preferably, when short tire bar entirety is installed, short tire bar 8 the shortest in short tire bar entirety is alignd with the structural joint (namely centrage of coke oven flue elbow preformed hole 9) of radian plate 1 side of winding up in arch tyre shoe 5, all short tire bar 8 in short tire bar entirety is all parallel with the long tire bar 7 in arch tyre surface, repaves nail fixing；A flue bent pipe preformed hole 9 is formed between adjacent two short tire bar entirety after assembly.

These are only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.All within the spirit and principles in the present invention, any modification, equivalent substitution and improvement etc. made, should be included within the scope of the present invention.

Claims (8)

1. a coke oven straight section flue arch stuffing construction method based on BIM technology, it is characterised in that this construction method comprises the steps:

Step one, according to design drawing, set up the parametrization threedimensional model of coke oven straight section flue arch stuffing；

Step 2, the component in threedimensional model is numbered, creates and output link inventory, component is carried out prefabricated processing；

Step 3, the component of completion of processing is transported to job site, checks the size of each component according to threedimensional model；

Step 4, based on threedimensional model, each component is carried out assembly, build coke oven straight section flue arch stuffing.

2. coke oven straight section flue arch stuffing construction method based on BIM technology as claimed in claim 1, it is characterised in that described coke oven straight section flue arch stuffing includes organizing the arch tyre shoe that uniform intervals arranges more, mats formation long tire bar in the arch limit along arch tyre shoe.

3. coke oven straight section flue arch stuffing construction method based on BIM technology as claimed in claim 2, it is characterized in that, described arch tyre shoe includes wind up radian plate and lower rotating plate, and two ends with lower rotating plate respectively, the two ends of the radian plate that winds up are connected, and form the bent frame closed；Having gripper shoe from the center of lower rotating plate to the radian plate symmetric radiation that winds up, gripper shoe is connected with the radian plate that winds up by connecting plate.

4. coke oven straight section flue arch stuffing construction method based on BIM technology as claimed in claim 3, it is characterised in that described step one, specifically includes procedure below:

1) set up wind up radian plate, lower rotating plate, gripper shoe and connecting plate, be combined into arch tyre shoe, then mirror image obtains two arch tyre shoe models, including left tyre shoe model and right tyre shoe model；

2) determine the spacing of the radian plate central plane that winds up of two tyre shoe models, constitute tyre shoe group model；

3) lay long tire bar, create tire bar model, tire bar model is integrated with tyre shoe group model, after integration, is converted into customizable component；

4) setting model creates point, including starting point and ending point, is alignd with starting point by the radian plate central plane that winds up of left tyre shoe, and distance between the two is 0；Winding up of right tyre shoe is set relative distance parameter, i.e. tyre shoe spacing parameter between radian plate central plane and starting point；

5) respectively left tyre shoe and right tyre shoe are used array of objects assembly, create remaining left tyre shoe and right tyre shoe, the number parameter of array uses formula Auto-matching: left tyre shoe quantity=(terminating point displacement starting point displacement)/(2 × tyre shoe spacing parameter), right tyre shoe quantity is identical with left tyre shoe quantity；

6) the two ends end face of tire bar model is bound with starting point and ending point respectively, create the relative distance parameter that long tire bar stretches out；

7) the tyre shoe group model after optimizing and combining and tire bar model, complete the foundation of the parametrization threedimensional model of coke oven flue straight section arch tire.

5. coke oven straight section flue arch stuffing construction method based on BIM technology as claimed in claim 4, it is characterised in that offer flue bent pipe preformed hole on described flue arch stuffing, lay multiple short tire bar between adjacent two flue bent pipe preformed holes.

6. coke oven straight section flue arch stuffing construction method based on BIM technology as claimed in claim 5, it is characterized in that, in step 4, when building described flue arch stuffing, first the multiple short tire bar between flue bent pipe preformed hole is carried out setting-out, according to setting-out size, making arc model, the radian of arc model is identical with the radian of the radian plate that winds up；Then, being assembled in respectively on two arc models at the two ends of multiple short tire bars, the modular short tire bar of fixing formation is overall；It is arranged on overall for short tire bar on arch tyre shoe after dismounting from arc model again, between adjacent two short tire bar entirety, forms a flue bent pipe preformed hole.

7. coke oven straight section flue arch stuffing construction method based on BIM technology as claimed in claim 6, it is characterized in that, when short tyre surface is installed, short tire bar the shortest in short tyre surface aligns with the structural joint of radian plate side of winding up in arch tyre shoe, and all short tire bar in short tyre surface is all parallel with the long tire bar in arch tyre surface.

8. coke oven straight section flue arch stuffing construction method based on BIM technology as claimed in claim 6, it is characterised in that offering draw-in groove on described arc model, draw-in groove matches with short tire bar.